1. Field of the Invention
The present invention relates to a buckle, and more particularly to a buckle of a seat belt.
2. Description of Related Art
With reference to
The releasing button 70 is pivotally mounted in the seat belt buckle body 60 and has two buckle spring recesses 71 formed in the releasing button 70. The buckle springs 80 are mounted in the buckle spring recesses 71 respectively. The buckle module 90 has a first buckle element 91 and a second buckle element 92. The first buckle element 91 and the second buckle element 92 are inserted in the seat belt buckle body 60. The second buckle element 92 engages the releasing button 70, and the first buckle element 91 abuts between the buckle springs 80 and the second buckle element 92.
When the releasing button 70 is pressed and disengages from the second buckle element 92, the buckle springs 80 will push the first buckle element 91, and then the buckle module 90 will spring out of the seat belt buckle body 60.
However, because the buckle springs 80 are not restricted at positions in the buckle spring recesses 71, the buckle springs 80 may spring out of the seat belt buckle body 60. Therefore, it is inconvenient for the use of the conventional buckle.
The main object of the present invention is to provide an improved buckle of a seat belt, which comprises a seat belt buckle body, a releasing button module, a spring module, and a buckle module.
The seat belt buckle body has an end, a side, a body space formed in the seat belt buckle body, a buckle opening formed in the end of the seat belt buckle body and communicating with the body space, and a button opening formed in the side of the seat belt buckle body and communicating with the body space.
The releasing button module is pivotally mounted in the body space, partially projects from the button opening, and has a spring recess formed in the releasing button module and facing the buckle opening, and an abutted portion mounted in the releasing button module and located between the spring recess and the buckle opening.
The spring module has a button spring mounted in the body space at a position opposite to the button opening and abutting between the seat belt buckle body and the releasing button module, a buckle spring mounted in the spring recess and an end of the buckle spring abutting on a bottom of the releasing button module, and a buckle spring block mounted on an end of the buckle spring at a position opposite to the bottom of the releasing button module and located between the buckle spring and the abutted portion.
The buckle module is inserted in the body space, engages the releasing button module, and abuts on the buckle spring block at a position opposite to the buckle spring.
The buckle spring springs the buckle spring block, and the buckle spring block will stop on the abutted portion, such that the buckle spring will not spring out of the spring space. As a result, it is convenient for use of the present invention.
Other objects, advantages, and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawing.
With reference to
With reference to
With reference to
The spring recess 214 is formed in the bottom of the button body 21, communicates with the body space 11 and is located at a middle of the button body 21. The button body 21 may have two spring recesses 214. The abutted portion 215 is connected between the first plate 211 and the second plate 212. The hooking portion 216 protrudes from a side of the second plate 212 at a position facing the first plate 211. The shaft 22 is inserted in the bottom of the button body 21 and in the bottom of the seat belt buckle body 10 to pivotally connect the button body 21 with the seat belt buckle body 10.
Part of the spring module 30 is mounted in the body space 11 to abut the button body 21, and part of the spring module 30 is mounted in the releasing button module 20. The spring module 30 has a button spring 31, a buckle spring 32, and a buckle spring block 33. The button spring 31 is mounted in the body space 11, an end of the button spring 31 abuts the seat belt buckle body 10, and the other end of the button spring 31 abuts the second plate 212 of the button body 21. The button spring 31 can push the button body 21, and the abutting surface 213 of the button body 21 will abut the abutted surface 142 of the button cover 14. The buckle spring 32 is mounted in the spring recess 214, and an end of the buckle spring 32 abuts the bottom of the button body 21. The buckle spring block 33 is mounted between the buckle spring 32 and the abutted portion 215 and has a connected portion 331 and a block portion 332. The connected portion 331 is connected with an end of the buckle spring 32 at a position opposite to the bottom of the button body 21. The block portion 332 is elongated, is connected with a top of the connected portion 331 and can abut the abutted portion 215 with a force provided by the buckle spring 32. The block portion 332 has a middle segment 333 corresponding to and selectively abutting the abutting portion 215 at that position.
The buckle spring block 33 may have two connected portions 331 if the spring module 30 has two buckle springs 32. The connected portion 331 may be omitted if the buckle spring 32 is mounted in a recess defined in the buckle spring block 33. The shape of the buckle spring block 33 is not restricted in the present invention, as long as the buckle spring 32 can be connected with the buckle spring block 33 and the buckle spring block 33 can abut the abutted portion 215 by the force of the buckle spring 32.
With reference to
The second buckle element 42 can abut the first buckle element 41 and has an inserting plate 421, a hooking portion 422, a positioning slot 423, and a buckle portion 424. The inserting plate 421 of the second buckle element 42 is inserted in the body space 11 and has two ends. One of the ends of the inserting plate 421 of the second buckle element 42 presses the end of the inserting plate 411 of the first buckle element 41 abutting the buckle spring block 33. The hooking portion 422 is formed on a side of the inserting plate 421 of the second buckle element 42 at a position opposite to the inserting plate 411 of the first buckle element 41, and the hooking portion 422 of the second buckle element 42 engages the hooking portion 216 of the button body 21. The positioning slot 423 is formed in the inserting plate 421 and the hooking portion 422 of the second buckle element 42 and is corresponding to the positioning slot 412 of the first buckle element 41. The positioning slot 423 of the second buckle element 42 accommodates part of the abutted portion 215. The buckle portion 424 of the second buckle element 42 is connected with an end of the inserting plate 421 at a position opposite to the hooking portion 422 of the second buckle element 42 and projects from the buckle opening 13. The buckle portion 424 of the second buckle element 42 can be connected with a seat belt.
With reference to
The buckle spring block 33 will abut on the abutted portion 215 when the buckle spring block 33 is sprung by the buckle spring 32. The buckle spring 32 will not spring out of the spring recess 214, such that it is convenient for the use of the present invention. The buckle spring block 33 also spreads the force of the buckle spring 32 for pushing the buckle module 40 equally, such that the spring module 30 will spring the buckle module 40 stably.
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